Aire induces the expression of a large set of autoantigen genes in the thymus, driving immunological tolerance in maturing T cells. To determine the full spectrum of molecular mechanisms underlying the Aire transactivation function, we screened an AIRE-dependent gene-expression system with a genome-scale lentiviral shRNA library, targeting factors associated with chromatin architecture/ function, transcription, and mRNA processing. Fifty-one functional allies were identified, with a preponderance of factors that impact transcriptional elongation compared with initiation, in particular members of the positive transcription elongation factor b (P-TEFb) involved in the release of "paused" RNA polymerases (CCNT2 and HEXIM1); mRNA processing and polyadenylation factors were also highlighted (HNRNPL/F, SFRS1, SFRS3, and CLP1). Aire's functional allies were validated on transfected and endogenous target genes, including the generation of lentigenic knockdown (KD) mice. We uncovered the effect of the splicing factor Hnrnpl on Aire-induced transcription. Transcripts sensitive to the P-TEFb inhibitor flavopiridol were reduced by Hnrnpl knockdown in thymic epithelial cells, independently of their dependence on Aire, therefore indicating a general effect of Hnrnpl on RNA elongation. This conclusion was substantiated by demonstration of HNRNPL interactions with P-TEFb components (CDK9, CCNT2, HEXIM1, and the small 7SK RNA). Aire-containing complexes include 7SK RNA, the latter interaction disrupted by HNRNPL knockdown, suggesting that HNRNPL may partake in delivering inactive P-TEFb to Aire. Thus, these results indicate that mRNA processing factors cooperate with Aire to release stalled polymerases and to activate ectopic expression of autoantigen genes in the thymus. autoimmunity | negative selection | hnRNP T he transcription factor Aire plays a very specific role in the management of immunological tolerance, promoting the ectopic expression, in medullary epithelial cells (MECs) of the thymus, of a wide array of peripheral-tissue antigens (PTA) (1). Differentiating T cells are thus exposed to the self-antigens that they will encounter later on, and potentially self-reactive cells are deleted or deviated to regulatory phenotypes as a result. Airedeficient mice and human patients develop autoantibodies and multiorgan autoimmune infiltration, similarly to human patients with a mutation at the AIRE gene locus (reviewed in ref. 2).Aire is an unusual transcriptional regulator. It impacts thousands of PTA-encoding genes whose expression is very differently controlled in parenchymal tissues (3), does not have a clear DNA binding motif, adjusts its targets according to the cell in which it is expressed (4), and takes as cues nonspecific marks of inactive chromatin such as unmethylated H3K4 (5, 6). Indeed, Aire-interacting proteins include factors involved in chromatin structure/modification, transcriptional elongation, and pre-mRNA processing (7). Several lines of investigation have shown that Aire primarily impacts the elongation ...
